胶质母细胞瘤对谷氨酰胺缺乏治疗效果的敏感性取决于细胞表型和代谢。

IF 2.3 4区 生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY
Alina A Isakova, Irina N Druzhkova, Artem M Mozherov, Diana V Mazur, Nadezhda V Antipova, Kirill S Krasnov, Roman S Fadeev, Marine E Gasparian, Anne V Yagolovich
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引用次数: 0

摘要

谷氨酰胺在肿瘤代谢中发挥着重要作用。众所周知,实体瘤的核心区域缺乏谷氨酰胺,这会影响肿瘤的生长和扩散。在此,我们研究了谷氨酰胺缺乏对细胞代谢的影响,以及人胶质母细胞瘤细胞 U87MG 和 T98G 对不同来源药物的敏感性:烷化细胞抑制剂替莫唑胺;细胞因子 TRAIL DR5-B - DR5 受体激动剂;以及 GMX1778 - 限制 NAD 生物合成的烟酰胺磷酸核糖转移酶(NAMPT)靶向抑制剂。对细胞转录组的生物信息学分析表明,U87MG 细胞的表型比 T98G 更分化,与谷氨酰胺代谢相关的基因表达谱也有所不同。谷氨酰胺被剥夺后,U87MG 和 T98G 细胞的生长率下降。通过 FLIM 显微镜下的 NADH 分析和培养基中乳酸含量的评估对细胞代谢进行的分析表明,谷氨酰胺缺乏使 U87MG 细胞的代谢状态转向糖酵解。与此同时,干性标志物CD133的表达也增加了,这共同表明这些细胞发生了去分化。与此同时,我们观察到 DR5 受体的表达和 U87MG 细胞对 DR5-B 的敏感性都有所增加。相反,谷氨酰胺剥夺会导致 T98G 细胞的代谢转向氧化磷酸化、DR5 表达减少以及对 DR5-B 的抗性。抑制 NAMPT 的效果在两种细胞系之间也有所不同,并且与 DR5-B 的效果相反:在谷氨酰胺被剥夺后,U87MG 细胞获得抗药性,而 T98G 细胞对 GMX1778 敏感。因此,两种人类胶质母细胞瘤细胞系的表型和代谢差异导致了不同的代谢变化,并在谷氨酰胺被剥夺期间对不同的靶向药物产生了截然不同的反应。在制定通过药物介导的氨基酸剥夺来治疗胶质母细胞瘤的策略以及探索新的治疗靶点时,应考虑这些数据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Glioblastoma Sensitization to Therapeutic Effects by Glutamine Deprivation Depends on Cellular Phenotype and Metabolism.

Glutamine plays an important role in tumor metabolism. It is known that the core region of solid tumors is deprived of glutamine, which affects tumor growth and spread. Here we investigated the effect of glutamine deprivation on cellular metabolism and sensitivity of human glioblastoma cells U87MG and T98G to drugs of various origin: alkylating cytostatic agent temozolomide; cytokine TRAIL DR5-B - agonist of the DR5 receptor; and GMX1778 - a targeted inhibitor of the enzyme nicotinamide phosphoribosyltransferase (NAMPT), limiting NAD biosynthesis. Bioinformatics analysis of the cell transcriptomes showed that U87MG cells have a more differentiated phenotype than T98G, and also differ in the expression profile of the genes associated with glutamine metabolism. Upon glutamine deprivation, growth rate of the U87MG and T98G cells decreased. Analysis of cellular metabolism by FLIM microscopy of NADH as well as assessment of lactate content in the medium showed that glutamine deprivation shifted metabolic status of the U87MG cells towards glycolysis. This was accompanied by the increase in expression of the stemness marker CD133, which collectively could indicate de-differentiation of these cells. At the same time, we observed increase in both expression of the DR5 receptor and sensitivity of the U87MG cells to DR5-B. On the contrary, glutamine deprivation of T98G cells induced metabolic shift towards oxidative phosphorylation, decrease in the DR5 expression and resistance to DR5-B. The effects of NAMPT inhibition also differed between the two cell lines and were opposite to the effects of DR5-B: upon glutamine deprivation, U87MG cells acquired resistance, while T98G cells were sensitized to GMX1778. Thus, phenotypic and metabolic differences between the two human glioblastoma cell lines caused divergent metabolic changes and contrasting responses to different targeted drugs during glutamine deprivation. These data should be considered when developing treatment strategies for glioblastoma via drug-mediated deprivation of amino acids, as well as when exploring novel therapeutic targets.

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来源期刊
Biochemistry (Moscow)
Biochemistry (Moscow) 生物-生化与分子生物学
CiteScore
4.70
自引率
3.60%
发文量
139
审稿时长
2 months
期刊介绍: Biochemistry (Moscow) is the journal that includes research papers in all fields of biochemistry as well as biochemical aspects of molecular biology, bioorganic chemistry, microbiology, immunology, physiology, and biomedical sciences. Coverage also extends to new experimental methods in biochemistry, theoretical contributions of biochemical importance, reviews of contemporary biochemical topics, and mini-reviews (News in Biochemistry).
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